Structure of tobacco mosaic virus at 6.7 å resolution. Holmes KC, Stubbs GJ, Mandelkow E, Gallwitz U (1975) Nature 254: 192-6 Structure of RNA and RNA binding site in tobacco mosaic virus from 4-A map calculated from X-ray fibre diagrams. Stubbs G, Warren S, Holmes K (1977) Nature 267: 216-21 Structure of tobacco mosaic virus at 3.6 A resolution: implications for assembly. Namba K, Stubbs G (1986) Science 231: 1401-6 Computer graphics representation of levels of organization in tobacco mosaic virus structure. Namba K, Caspar DL, Stubbs GJ (1985) Science 227: 773-6 Tobacco mosaic virus particle structure and the initiation of disassembly. Stubbs G (1999) Philos Trans R Soc Lond B Biol Sci 354: 551-7 Visualization of protein-nucleic acid interactions in a virus. Refined structure of intact tobacco mosaic virus at 2.9 A resolution by X-ray fiber diffraction. Namba K, Pattanayek R, Stubbs G (1989) J Mol Biol 208: 307-25 Structure-function relationship between tobacco mosaic virus coat protein and hypersensitivity in Nicotiana sylvestris. Culver JN, Stubbs G, Dawson WO (1994) J Mol Biol 242: 130-8 Structure determination of cucumber green mottle mosaic virus by X-ray fiber diffraction. Significance for the evolution of tobamoviruses. Wang H, Stubbs G (1994) J Mol Biol 239: 371-84 Structure of the U2 strain of tobacco mosaic virus refined at 3.5 A resolution using X-ray fiber diffraction. Pattanayek R, Stubbs G (1992) J Mol Biol 228: 516-28 Visualization of alpha-helices in tobacco mosaic virus by cryo-electron microscopy. Jeng TW, Crowther RA, Stubbs G, Chiu W (1989) J Mol Biol 205: 251-7 Preliminary X-ray fiber diffraction studies of cucumber green mottle mosaic virus, watermelon strain. Lobert S, Heil PD, Namba K, Stubbs G (1987) J Mol Biol 196: 935-8 31P nuclear magnetic resonance of the RNA in tobacco mosaic virus. Cross TA, Opella SJ, Stubbs G, Caspar DL (1983) J Mol Biol 170: 1037-43 Structure of the RNA in tobacco mosaic virus. Stubbs G, Stauffacher C (1981) J Mol Biol 152: 387-96 Structures of the helical aggregates of tobacco mosaic virus protein. Mandelkow E, Stubbs G, Warren S (1981) J Mol Biol 152: 375-86 Caspar carboxylates: the structural basis of tobamovirus disassembly. Wang H, Planchart A, Stubbs G (1998) Biophys J 74: 633-8 Enhancement and simplification of macromolecular images. Namba K, Caspar DL, Stubbs G (1988) Biophys J 53: 469-75 Application of restrained least-squares refinement to fiber diffraction from macromolecular assemblies. Stubbs G, Namba K, Makowski L (1986) Biophys J 49: 58-60 Structural studies of tobacco mosaic virus and its components by laser Raman spectroscopy. Fish SR, Hartman KA, Stubbs GJ, Thomas GJ (1981) Biochemistry 20: 7449-57 Carboxylate interactions involved in the disassembly of tobacco mosaic tobamovirus. Lu B, Stubbs G, Culver JN (1996) Virology 225: 11-20 Site-directed mutagenesis confirms the involvement of carboxylate groups in the disassembly of tobacco mosaic virus. Culver JN, Dawson WO, Plonk K, Stubbs G (1995) Virology 206: 724-30 Coat protein interactions involved in tobacco mosaic tobamovirus cross-protection. Lu B, Stubbs G, Culver JN (1998) Virology 248: 188-98 Intersubunit interactions allowing a carboxylate mutant coat protein to inhibit tobamovirus disassembly. Lu B, Taraporewala F, Stubbs G, Culver JN (1998) Virology 244: 13-9 Barley stripe mosaic virus: structure and relationship to the tobamoviruses. Kendall A, Williams D, Bian W, Stewart PL, Stubbs G (2013) Virology 443: 265-70 Precise determination of the helical repeat of tobacco mosaic virus. Kendall A, McDonald M, Stubbs G (2007) Virology 369: 226-7 Characterization of a putative calcium-binding site in tobacco mosaic virus. Pattanayek R, Elrod M, Stubbs G (1992) Proteins 12: 128-32 Molecular dynamics in refinement against fiber diffraction data. Wang H, Stubbs G (1993) Acta Crystallogr A 49: 504-13
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